The study, the result of a collaboration of researchers affiliated with the National Institutes of Health, Maryland, supports that CB1 receptors play a role in smoking. The findings add to the
Of the 46 men who participated in the study all were considered healthy -- 18 of the participants were frequent cigarette smokers and 28 did not smoke. The researchers measured the number of receptors by using a brain imaging technique to detect a drug that binds to CB1 receptors.
The analysis indicated a nearly 20 percent reduction in CB1 receptors in the brains of smokers compared to non-smokers. The reduced receptor number was present throughout the brain (in all 18 regions examined in the study), with some regions more affected than others. The reduction in receptors was not exacerbated by more cigarettes smoked per day, or by starting before the age of 18.
"We think that the reduction of CB1 receptors may be unhealthy because these receptors are involved in many normal brain functions, such as memory and coping with stress," said Jussi Hirvonen, MD, PhD, of NIH and University of Turku, Finland. Dr. Hirvonen was co-first author of the study, along with Paolo Zanotti-Fregonara, MD, PhD, of NIH and Houston Methodist Research Institute, Texas.
A drug that blocks CB1 receptors, called rimonabant, has been tested in clinical trials for smoking cessation. Although the drug seemed to help people quit smoking, it caused problematic psychiatric side effects. "While rimonabant was associated with unacceptable risk for mood symptoms and suicidal ideation, other addiction treatments targeting cannabinoid signaling should be explored," said John Krystal, MD, Editor of Biological Psychiatry.
The findings have important and immediate implications for research examining the role of the brain's cannabinoid system in the cause of neuropsychiatric disorders. Because smoking is so common in people with neuropsychiatric disorders, clinical studies will have to carefully consider smoking habits in patients that could interfere with cannabinoid receptor measurements.